NAND flash memory with erase verify based on shorter evaluation time

1. A non-volatile memory device including a plurality of memory cells each one having a programmable threshold voltage, and means for reading a set of selected memory cells with respect to a plurality of reference voltages, for each selected memory cell the means for reading including means for charging a reading node associated with the selected memory cell with a charging voltage, means for biasing the selected memory cell with a biasing voltage, means for connecting the charged reading node with the biased selected memory cell, and means for sensing a voltage at the reading node after a predefined delay from the connection, for at least a first one of the reference voltages the biasing voltage being a first biasing voltage equal to the first reference voltage, and the delay being a common first delay, wherein for at least a second one of the reference voltages the biasing voltage is a second biasing voltage different from the second reference voltage, and the delay is a second delay different from the first delay.

2. The memory device according to claim 1 wherein the second delay is shorter than the first delay.

3. The memory device according to claim 1 , wherein the second biasing voltage is equal to the first reference voltage.

4. The memory device according to claim 1 , wherein for at least a third one of the reference voltages the biasing voltage is a third biasing voltage different from the second biasing voltage, and the delay is a third delay equal to the second delay.

5. The memory device according to claim 1 , wherein each biasing voltage has a first sign or a null value, and wherein the second and/or the third reference voltage has a second sign opposite to the first sign.

6. The memory device according to claim 1 , wherein the first reference voltage is a reading voltage, the second reference voltage is the reading voltage with a margin, and the third reference voltage is the reading voltage with a further margin lower than said margin.

7. The memory device according to claim 6 , wherein the memory cells are arranged in at least one sector, the memory device further including means for erasing all the memory cells of a selected sector and means for shifting the threshold voltages of the erased memory cells towards the reading voltage, the means for shifting including means for soft-programming the memory cells of the selected sector, means for detecting an ending condition of the soft-programming according to a result of the reading of the cells of the selected sector with respect to the second reference voltage, and means for stopping the soft-programming in response to the ending condition.

8. The memory device according to claim 7 wherein the means for shifting further includes means for verifying the erasure of the soft-programmed cells according to a result of the reading of the soft-programmed cells with respect to the third reference voltage.

9. The memory device according to claim 1 , wherein the memory device is of the NAND type.

10. A method for reading a non-volatile memory device including a plurality of memory cells each one having a programmable threshold voltage, the method including the steps of: reading a set of selected memory cells with respect to a plurality of reference voltages, wherein for each selected cell the step of reading includes: charging a reading node associated with the selected memory cell with a charging voltage, biasing the selected memory cell with a biasing voltage, connecting the charged reading node with the biased selected memory cell, and sensing a voltage at the reading node after a predefined delay from the connection, for at least a first one of the reference voltages the biasing voltage being a first biasing voltage equal to the first reference voltage, and the delay being a common first delay, wherein for at least a second one of the reference voltages the biasing voltage is a second biasing voltage different from the second reference voltage, and the delay is a second delay different from the first delay.

11. A memory, comprising: a read node; a first nonvolatile memory cell having a control node, an output node coupled to the read node, and a threshold; and a threshold-verify circuit coupled to the memory cell and operable to determine whether the threshold is within a first range by reading a first value on the read node a first predetermined time after coupling a first bias signal to the control node, and determine whether the threshold is within a second range by reading a second value on the read node a second predetermined time after coupling a second bias signal to the control node.

12. The memory of claim 11 wherein: the first bias voltage equals the second bias voltage; and the first predetermined time is unequal to the second predetermined time.

13. The memory of claim 11 wherein: the first bias voltage equals the second bias voltage; the first range is lower than the second range; and the first predetermined time is less than the second predetermined time.

14. The memory of claim 11 wherein: the first predetermined time equals the second predetermined time; and the first bias signal is unequal to the second bias signal.

15. The memory of claim 11 wherein: the first predetermined time equals the second predetermined time; the first bias signal has a polarity; and the second bias signal equals zero.

16. The memory of claim 11 wherein: the first predetermined time equals the second predetermined time; and the first and second bias signals are unequal and have a same polarity.

17. The memory of claim 11 wherein: the first predetermined time equals the second predetermined time; the first range is lower than the second range; and the first bias signal is less than the second bias signal.

18. The memory of claim 11 wherein the threshold-verify circuit is further operable to: determine whether the threshold is within a first range by comparing the first value to a predetermined reference signal; and determine whether the threshold is within a second range by comparing the second value to the predetermined reference signal.

19. The memory of claim 11 , further comprising: a second nonvolatile memory cell coupled between the read node and the output node of the first memory cell; and wherein the threshold-verify circuit is operable to render the second memory cell conductive while determining whether the threshold is within the first and second ranges.

20. The memory of claim 11 , further comprising a threshold-adjust circuit coupled to the first nonvolatile memory cell and operable to adjust the threshold after the threshold-verify circuit determines whether the threshold is within the first range and before the threshold-verify circuit determines whether the threshold is within the second range.

21. The memory of claim 11 , further comprising a threshold-adjust circuit coupled to the first nonvolatile memory cell and operable to adjust the threshold before the threshold-verify circuit determines whether the threshold is within the first range.

22. The memory of claim 11 , further comprising a threshold-adjust circuit coupled to the first nonvolatile memory cell and operable to: lower the threshold before the threshold-verify circuit determines whether the threshold is within the first range; and raise the threshold after the threshold-verify circuit determines whether the threshold is within the first range and before the threshold-verify circuit determines whether the threshold is within the second range.

23. The memory of claim 11 , further comprising a threshold-adjust circuit coupled to the first nonvolatile memory cell and operable to: lower the threshold before the threshold-verify circuit determines whether the threshold is within the first range; and raise the threshold before the threshold-verify circuit determines whether the threshold is within the second range if the threshold-verify circuit determines that the threshold is within the first range.

24. An integrated circuit, comprising: a memory, comprising, a read node, a first nonvolatile memory cell having a control node, an output node coupled to the read node, and a threshold, and a threshold-verify circuit coupled to the memory cell and operable to determine whether the threshold is within a first range by reading a first value on the read node a first predetermined time after coupling a first bias signal to the control node, and determine whether the threshold is within a second range by reading a second value on the read node a second predetermined time after coupling a second bias signal to the control node.

25. A system, comprising: an integrated circuit, comprising, a memory, comprising, a read node, a first nonvolatile memory cell having a control node, an output node coupled to the read node, and a threshold, and a threshold-verify circuit coupled to the memory cell and operable to determine whether the threshold is within a first range by reading a first value on the read node a first predetermined time after coupling a first bias signal to the control node, and determine whether the threshold is within a second range by reading a second value on the read node a second predetermined time after coupling a second bias signal to the control node.

26. A method, comprising: driving a first nonvolatile memory cell with a first signal level; determining whether a threshold of the memory cell is within a first range a first predetermined time after driving the memory cell; driving the memory cell with a second signal level; and determining whether the threshold is within a second range a second predetermined time after driving the memory cell with the second signal level.

27. The method of claim 26 wherein the first and second signal levels respectively comprise first and second voltage levels.

28. The method of claim 26 wherein: determining whether the threshold of the memory cell is within the first range comprises determining whether the threshold is less than or equal to a first voltage level; and determining whether the threshold is within the second range comprises determining whether the threshold is less than or equal to a second voltage level.

29. The method of claim 26 wherein: determining whether the threshold of the memory cell is within the first range comprises determining whether the threshold is less than or equal to a first voltage level; and determining whether the threshold is within the second range comprises determining whether the threshold is less than or equal to a second voltage level that is greater than the first voltage level.

30. The method of claim 26 wherein: the first voltage level equals the second voltage level; and the first predetermined time is unequal to the second predetermined time.

31. The method of claim 26 wherein: the first predetermined time equals the second predetermined time; and the first voltage level is unequal to the second voltage level.

32. The method of claim 26 wherein: the first predetermined time equals the second predetermined time; the first voltage level is greater than or equal to zero; and the second voltage level is greater than or equal to zero.

33. The method of claim 26 , further comprising rendering conductive a second nonvolatile memory cell that is serially coupled to the first memory cell while determining whether the threshold is within the first and second ranges.

34. The method of claim 26 , further comprising increasing the threshold after determining whether the threshold is within the first range and before determining whether the threshold is within the second range.

35. The method of claim 26 , further comprising decreasing the threshold before determining whether the threshold is within the first range.